Muscle Module Discussion 1 Notes Flashcards by Sara Richmond | Brainscape

Q

_____________ is the general function of muscle that that functions as a form of storage of sugar and high energy molecules

A

chemical energy storage

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Q

__________________ is a general function of muscle that allows us to produce force and use ATP

A

Transduction and conversion of chemical energy to mechanical energy

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Q

What are the three types of muscle

A

voluntary striated, unvioluntary striated, involuntary unstraiated

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Q

Function and name of voluntary striated muscle

A

skeletal muscle

locamotion and posture

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Q

Function and name of involuntary striated muscle

A

cardiac muscle

cardiac pump

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Q

Function and name of unstriated involuntary muscle

A

smooth muscle

digestion, visual accommodation, thermoregulation

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Q

What is the structure of muscle

A

whole muscle -> muscle fiber -> myofibril -> sarcomere

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Q

What are the structural notes of a muscle fiber

A

indiviudal muscle cell
diameter 50 μm
length of whole muscle
multinucleate

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Q

What are the structural notes of a myofibril

A

contractile organelle
diameter 1μm
length whole muscle fiber

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Q

What are the structural notes of a sarcomere

A

contractile unit
one sarcomere can contract and produce force on its own
length 2.1 μm

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Q

What are the connective tissue layers in muscle

A

Epimyseim: surrounds whole muscle
perimyseium: surrounds groups of muscle fibers
endomyseium: surrounds individual muscle fibers

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Q

what is the connective tissue of muscles primarily made of

A

collagen (elastic and strong)

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Q

_________ surrounds whole muscle

A

-Epimyseim:

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Q

______________ surrounds groups of muscle fibers

A

perimyseim

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Q

________________ surrounds individual muscle fibers

A

-endomyseium:

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Q

Structural units of a sarcomere:

A

Z disc
M line
A band
I band

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Q

Structural units of a sarcomere:

___________ beginning and end of sarcomere. Archiores thin filament

A

Z disc

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Q

Structural units of a sarcomere:

__________ is the midline of sarcomere

A

Midline

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Q

Structural units of a sarcomere:

__________________ region containing only thick myfilaments

A

A band

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Q

Structural units of a sarcomere:

_________________ region containing only thin filaments

A

I band

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Q

_____________ are what contain contractile proteins in sarcomere

A

myofilaments

Q

Length of filaments:

A

thick filament: length 1.6 μm

thin filament length 1.0 μm

Q

what were experimenters unsure was due to________________

A

shortening of thin filaments or sliding filaments

Q

An experimenter was done to understand how muscle contraction works

A

stimulate the muscle to contract
measured force generated by the muscle
Increase in the length of the muscle

Q

Sliding filament hypothesis:

Overall change in length during contraction

A

muscle fiber, myofibral, sarcomere gets shorter

- filament do not change, they overlap

Q

____________________ are structural connections between thick and thin filaments. Thought to be motors producing force during contraction

A

structural connections

Q

Thin filaments are made of

A

G action
Trpomyosin
ttroponin Complex

Q

In thin filaments:
______________:
-Is globular
-forms an alpha helical polymer
-7G actin make up one turn of the alpha helix
-a polymer associated to make a double strand of F actin

A

G actin

Q

How many G actin make up one turn of the alpha helix

A

7 G actin

Q

In thin filaments: 
\_\_\_\_\_\_\_\_\_\_\_\_ 
-Is long and helical 
-7 G actin long 
-associated with F actin

A

Tropomyosin

Q

In thin filaments:
______________
-50 long
-spherical

A

Troponin Complex

Q

What make a thick filament?

A

Myosin heavy chain

- myosin light chain

Q

In thick filaments?: 
\_\_\_\_\_\_\_\_\_\_\_\_: 
-head of ATP 
-Tail of alpha helix 
-form dimers

A

myosin heavy chains

Q

In thick filaments?:
______________________
-self autonomous (assemble by themselves)
-staggered one after another
-antiparallel on either side of each other fragmenting in either direction

A

myosin light chains

Q

_____________ where the thick filament myosin head is attached to thin filament G actin

A

cross bridge

Q

Purpose of cross bridge cycle is to _____________ with ______________

A

cause a force production

with ATP and CA2+

Q

In the cross bridge cycle:
during the _________________
-low Ca levels, myosin heavy chain head is relaxed, and ATP is hydrolyzed
-cross bridge is not formed

A

relaxed state

Q

what is the first step of the cross bridge cycle

A

an increase in intracellular Ca2+

Q

How are cross bridge formed

A

myosin heavy chain head binds to thin filament

- ATP is still hydrolyzed in form of ADP and P

Q

What is the power stroke aka tiger state

A

realse of ADP and P which causes conformational changes in the MHC head
MHC head remains bound but changes its angle at hinge region

Q

what happens in the cross bridge cycle after the power stroke

A

release of head from thin strand
ATP binds to MHC
MHC dissociated from thin filaments still at angle

Q

What is the final step of the cross bridge cycle

A

hydrolysis of ATP

-this causes MHC head to be relaxed again and go back to relaxed state

Q

one cross bridge cycle is an unload in muscle that takes _________________

A

50 msecs

Q

MHC head ____________ on each half of sarcomere

A

moves 10nm

Q

Power streak causes __________________ and ___________________

A

moves Z disc toward M line

- causes 20 nm total per sarcomere

Q

efficency is ______________ of chemical energy is transduced Into mechanical energy

A

45% of energy

Q

_____________ is the hydrolysis of ATP breaking its phosphate bond

A

chemical energy

Q

Where is the chemical energy stored ____________

A

MHC head

Q

what happens to the chemical energy

A

it is released as mechanical energy when the MHC head moves

Q

what happens to chemical energy

A

55% is lost as heat aka thermoregulation